Overview

Critical infrastructures are targets for terrorism and deliver a valuable vector through which the proliferation of CBRN and explosive precursors can be detected. Recent technological breakthroughs, notably in the field of near infrared (NIR), mid infrared (MIR), Terahertz (THz) and Gigahertz (GHz) sources and detectors, have led to rugged commercial devices, capable of standoff sensing a range of these dangerous substances. However, at the same time criminal and terrorist organizations have also benefited from the availability of technologies to increase the threat they pose to the security of citizens and a concerted effort is needed to improve early detection measures to identify activities, such as the production of homemade explosives or CBRN that can be potentially dangerous to society. The key global technological bottleneck to be overcome is the current lack of integration and networking of mature detection technology into early warning systems for critical infrastructures. Thus, this book brings together complementary information connecting the research of leading teams working on critical Infrastructure protection with academic developers and industrial producers of state of the art sensors. 

Full Product Details

Author:   Mauro Fernandes Pereira ,  Apostolos Apostolakis
Publisher:   Springer
Imprint:   Springer
Edition:   1st ed. 2021
Weight:   0.678kg
ISBN:  

9789402420814

ISBN 10:   9402420819
Pages:   285
Publication Date:   01 May 2021
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Part I State of the Art in sensors for the protection of critical infrastructures.- 1 Sensor Data Fusion and Autonomous Unmanned Vehicles for the Protection of Critical Infrastructures.- Part II Beyond QCLs, ICLs and Superlattices: competing technologies for detection of explosives and CBRN.- 2 High Power, Widely Tunable, and Beam Steerable Mid-infrared Quantum Cascade.- 3 Broadband terahertz gas spectroscopy through multimode self-mixing in a quantum cascade laser.- 4 Crucial aspects of the device processing of quantum cascade lasers.- 5 Broadband gas QEPAS detection exploiting a monolithic DFB-QCL array.- 6 Global optimization methods for the design of MIR-THz QCLs applied to explosives detection.- Part III Superlattices and other technologies for GHz-THz sensing.- 7 Non-Destructive testing THz systems: fast postal scanner case study.- 8 Recent advances in superlattice frequency multipliers.- 9 Solid-State Millimeter-Wave through Terahertz Transceivers.- 10 Transmission and reflection characteristics of textiles in the Terahertz range.- 11 Transition between localized and delocalized terahertz conductivity in modulated nanostructures studied by Monte-Carlo calculations.- 12 THz Sources and Detectors Fabricated from High Temperature Superconductors.- 13 Semiconductor components for THz-TDS systems activated by compact fibre lasers.- 14 Soft chemical ionization mass spectrometry analyses of hazardous gases and decomposition products of explosives in air.- 15 On the prospect of application of point-contact sensors to solving the global security problems: an analytical review.- 16 Development of Gas Sensor Systems in the Infrared Region.- 17 Raman Cooperative UV Generation with Possible Applications in microbiology.- 18 THz Spectroscopy of Advanced Materials.

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Author Information

Prof. Mauro Fernandes Pereira obtained his PhD at the Optical Sciences Center, University of Arizona and has given important contributions to Nonequlibrium Greens Functions (NEGF) Many Body Theory of Transport and Optics of Semiconductor Materials. His research combines fundamental Mathematical Physics with applications to device development, with an impact in medicine and the environment, with a current emphasis on the protection of water critical infrastructures. He has been named SPIE Fellow in 2011 for his contributions to the Theory of Semiconductor Materials and Optics.  He created the TERA-MIR concept unifying THz and Mid Infrared Radiation and was the Chair of COST ACTION MP1204: TERA-MIR Radiation: Materials, Generation, Detection and Applications and Chair of the Series of NATO TERA-MIR Conferences (2009, 2012, 2015 and 2018).   He coordinates the TERA-MIR Network. He has been awarded the SPIE Innovation Awards in QuantumSensing and Nano Electronics and Photonics (2019) for contributions to science and his service through organizing NATO TERA-MIR and COST. He was a research associate at CBPF, Uni-Rostock and TU-Berlin, a visiting Lecturer at Uni-Bremen, Senior Researcher at Tyndall Institute, Professor and Chair of Theory of Semiconductor Materials and Optics at Sheffield Hallam University and Head of the Department of Condensed Matter Theory at the Institute of Physics of the Academy of Sciences of Czech Republic, where is currently a Senior Scientist (on leave) before joining Khalifa University of Science and Technology as Professor and Chair of the Physics Department. Dr. Apostolos Apostolakis received his PhD degree in theoretical physics from Loughborough University, Loughborough, UK in 2017 with a thesis about high-frequency acoustoelectronic phenomena in miniband superlattices. Currently he is postdoctoral researcher in Department of Condensed Matter Theory, Institute of Physics, CAS (Prague, Czech Republic). His current research interests focus on Theory and simulations in condensed matter physics, THz physics, nonlinear dynamics, semiconductor heterostructures, acoustoelectronics and opto-electronic devices. To describe the optical responses of these structures, he works in developing theory and computational tools based on Nonequlibrium Green’s Functions, Boltzmann transport equation and qualitative theory of differential equations.

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